Zusammenfassung
Durch die Anwendung von Schmierstoffen können Reibung und Verschleiß stark vermindert werden, indem der unmittelbare Kontakt von Grund- und Gegenkörper unterbrochen wird. Hier soll nur die Schmierung mit flüssigen Schmierstoffen behandelt werden. Über die Fettund Feststoffschmierung wird in Kapitel 10 berichtet.
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Kapitel 6.2
Berthe D.; Godet M.: A More General Form of Reynolds Equation – Application to Rough Surfaces. Wear 27 (1973), S. 345–357
Boussinesq, J.: Application des Potentials a l'Etude de l'Equilibre et du Mouvement des Solides Elastiques. Paris: Gauthier-Villars, 1885
Dowson, D.; Higginson, G.R.: Elastohydrodynamic Lubrication- SI Edition, Pergamon, Oxford, (1977)
Greenwood, J. A.; Williamson, J. B. P.: Contact of nominally flat surfaces. In: Series A, Mathematical, physical and engineering sciences, Proceedings of the Royal Society, London 295 (1966), S. 300–319
Greenwood, J.A. und Tripp, J.H.: The Contact of Two Nominally Flat Rough Surfaces, Proc. Instn. Mech. Engrs. 185, 1970–1971
Knoll, G., Lang, J. und Rienäcker, A.: Transient EHD Connecting Rod Analysis: Full Dynamic Verus Quasi-static Deformation. Trans. ASME, Ser. F, Journal of Tribology, Vol. 118, 1995, S. 349–355
Knoll, G., R. Schönen und K. Wilhelm. „Full Dynamic Analysis of Crankshaft and Engine Block with Special Respect to Elastohydrodynamik Bearing Coupling“, ASME/ICED Spring Technical Conference, 1997
Knoll, G., V. Lagemann: Simulationsverfahren zur Charakterisierung rauer Oberflächen, Teil 1 und 2, Tribologie und Schmierungstechnik, 49. Jahrgang, 1/2002-2/2002
Lui, J.Y.; Taillian, T.E.; McCool, J.I.: Dependence of bearing fatigue life on film thickness to surface roughness ratio. Trans. ASME, (1975), 18, No.2, S. 144–152
Patir, N.; Cheng H.S.: An Average Flow Model for Determining Effects of Three Dimensional Roughness on Partial Hydrodynamic Lubrication. Trans. ASME Ser. F, Journal of Lubrication Technology 100 (1978), S. 12–17
Patir, N.; Cheng H.S.: An Average Flow Model for Determining Effects of Three Dimensional Roughness on Partial Hydrodynamic Lubrication. Trans. ASME Ser. F, Journal of Lubrication Technology 100 (1978), S. 12–17
Peeken H. J., Knoll G., Rienäcker A., Lang J., Schönen R., On the Numerical Determination of Flow Factors, ASME Journal of Tribology, 1996
Peklenik, J.: Grundlagen zur Korrelationstheorie technischer Oberflächen. In: Industrie-Anzeiger, Essen, 87. Jg. (1965), Nr. 26, S. 456–462
Peklenik, J.: Investigations of the Surface Typology. In: Annals of the C.I.R.P. Vol. XV (1967), S. 381–385
Stribeck, R.: Die wesentlichen Eigenschaften der Gleit- und Rollenlager. VDI-Z. 46 (1902) S. 1341, 1432, 1463.
Kapitel 6.3
Daniel, S.G.: The adsorption on metal surfaces of long chain polar compounds from hydrocarbon solutions. Trans. Faraday Soc. 47 (1951) 1345.
Fuller, D.: Theorie und Praxis der Schmierung. Stuttgart: Berliner Unions Verlag, 1960.
Groszek, A.J.: Heat of preferential adsorption of surfactants on porous solids and its relation to wear of sliding steel surfaces. ASLE Trans. 5 (1962) 105.
Habig, K.-H.; Kelling, N.: Untersuchungen der Verträglichkeit von Schmierölen mit metallischen Gleitlagerwerkstoffen bei tribologischer Beanspruchung, in: Tribologie Band 6 (Bunk, W., Hansen, J. u. Geyer, M., Herausgeber). Berlin, Heidelberg, New York, Tokyo: Springer, 1983, S. 165.
Iliuc, I.: Tribology of thin layers. Amsterdam, Oxford, New York: Elsevier, 1980.
Lockwood, F.E.; Bridger, K.; Hsu, S.M.: Heats of immersion, friction, and wear of base oil fractions. Tribol. Trans. 32 (1989) 506.
Nakayama, K.; Studt, P.: The adsorption of polar cyclic compounds on iron surfaces from hydrocarbon solutions and their lubricating properties. Wear 116 (1987) 107.
Quilty, C.J.; Martin, P.: The effect of antiwear additives on the lubrication properties of corrosion preventive oils. Lubric. Engng. 25 (1969) 240.
Reynolds, O.: On the theory of lubrication and its application to Mr. Beauchamp Tower's experiments, including an experimental determination of the viscosity of olive oil. Phil. Trans. Roy. Soc. London 177 (1886) 157.
Rowe, C.N.: Lubricated Wear, in: Wear Control Handbook (Peterson, M.B. and Winer, W.O., Editors). New York: American Society of Mechanical Engineers, 1980, p. 143.
Sakurai, T.; Sato, K.: Study of corrosivity and correlation between chemical reactivity and load-carrying capacity of oils containing extreme pressure agents. ASLE Trans. 9 (1966) 77.
Studt, P.: Zusammenhang zwischen Adsorbierbarkeit und Wirksamkeit von Hochdruckzusätzen in Schmierölen. Erdöl Kohle 21 (1968) 784.
Studt, P.: Boundary lubrication: adsorption of oil additives on steel and ceramic surfaces and its influence on friction and wear. Tribology International 22 (1989) 111.
Uetz, H.; Khosrawi, M.A.; Föhl, J.: Mechanism of reaction layer formation in boundary lubrication. Wear 100 (1984) 301.
Willermet, P.: An evaluation of several metals and ceramics in lubricated sliding. ASLE Trans. 30 (1987) 128.
Zisman, W.A.: Friction, durability and wettability properties of monomolecular films on solids, in: Friction and Wear, Detroit 1957 (R. Davies, Editor). Amsterdam: Elsevier, 1959.
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Czichos, H., Habig, KH. (2010). Schmierung. In: Tribologie-Handbuch. Vieweg+Teubner. https://doi.org/10.1007/978-3-8348-9660-5_6
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